Torii Yasushi | Human Vaccine Production Dep. The Chemo-sero-therapeutic Res. Inst. Jpn
スポンサーリンク
概要
関連著者
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Harakawa Tetsuhiro
Human Vaccine Production Dep. The Chemo-sero-therapeutic Res. Inst. Jpn
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Torii Yasushi
Human Vaccine Production Dep. The Chemo-sero-therapeutic Res. Inst. Jpn
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Akaike Norio
Research Division For Life Sciences Kumamoto Health Science University
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KOZAKI Shunji
Laboratory of Veterinary Public Health, College of Agriculture, Osaka Prefecture University
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Kozaki Shunji
Department Of Veterinary Science Graduate School Of Life And Environmental Sciences Osaka Prefecture
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SHIN Min-Chul
Research Division for Life Sciences, Kumamoto Health Science University
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WAKITA Masahito
Research Division for Life Sciences, Kumamoto Health Science University
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XIE Du-Jie
Research Division for Life Sciences, Kumamoto Health Science University
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YAMAGA Toshitaka
Research Division for Life Sciences, Kumamoto Health Science University
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IWATA Satomi
Research Division for Life Sciences, Kumamoto Health Science University
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GINNAGA Akihiro
Human Vaccine Production Department, The Chemo-Sero-Therapeutic Research Institute
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Iwata Satomi
Research Division For Life Sciences Kumamoto Health Science University
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Wakita Masahito
Research Division For Life Sciences Kumamoto Health Science University
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Harakawa Tetsuhiro
Human Vaccine Production Department The Chemo-sero-therapeutic Research Institute
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Kozaki Shunji
Laboratory Of Veterinary Epidemiology Department Of Veterinary Science Graduate School Of Life And Environmental Sciences Osaka Prefecture University
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Yamaga Toshitaka
Research Division For Life Sciences Kumamoto Health Science University
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Torii Yasushi
Human Vaccine Production Department The Chemo-sero-therapeutic Research Institute
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Xie Du-jie
Research Division For Life Sciences Kumamoto Health Science University
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Shin Min-chul
Research Division For Life Sciences Kumamoto Health Science University
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Ginnaga Akihiro
Human Vaccine Production Department The Chemo-sero-therapeutic Research Institute
著作論文
- Type A1 but Not Type A2 Botulinum Toxin Decreases the Grip Strength of the Contralateral Foreleg Through Axonal Transport From the Toxin-Treated Foreleg of Rats
- Inhibition of Membrane Na^+ Channels by A Type Botulinum Toxin at Femtomolar Concentrations in Central and Peripheral Neurons